PIC24FJ64GA006-I Datasheet, PDF(179/258 Page) Microchip Technology – 64/80/100-Pin, General Purpose, 16-Bit Flash Microcontrollers

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PIC24FJ64GA006-I Datasheet, PDF (179/258 Pages) Microchip Technology – 64/80/100-Pin, General Purpose, 16-Bit Flash Microcontrollers

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PIC24FJ128GA010 FAMILY

21.0 10-BIT HIGH-SPEED A/D

CONVERTER

Note:

This data sheet summarizes the features of

this group of PIC24F devices. It is not

intended to be a comprehensive reference

source. Refer to Section 17. â10-Bit A/D

Converterâ (DS39705) in the âPIC24F

Family Reference Manualâ for more

information.

The 10-bit A/D Converter has the following key

features:

â¢ Successive Approximation (SAR) conversion

â¢ Conversion speeds of up to 500 ksps

â¢ Up to 16 analog input pins

â¢ External voltage reference input pins

â¢ Automatic Channel Scan mode

â¢ Selectable conversion trigger source

â¢ 16-word conversion result buffer

â¢ Selectable Buffer Fill modes

â¢ Four result alignment options

â¢ Operation during CPU Sleep and Idle modes

Depending on the particular device pinout, the 10-bit

A/D Converter can have up to 16 analog input pins,

designated AN0 through AN15. In addition, there are

two analog input pins for external voltage reference

connections. These voltage reference inputs may be

shared with other analog input pins. The actual number

of analog input pins and external voltage reference

input configuration will depend on the device. Refer to

the specific device data sheet for further details.

A block diagram of the A/D Converter is shown in

Figure 21-1.

To perform an A/D conversion:

1. Configure the A/D module:

a) Select the port pins as analog inputs

(AD1PCFG<15:0>).

b) Select a voltage reference source to match

the expected range on the analog inputs

(AD1CON2<15:13>).

c) Select the analog conversion clock to match

the desired data rate with the processor clock

(AD1CON3<7:0>).

d) Select the appropriate sample/conver-

sion sequence (AD1CON1<7:0> and

AD1CON3<12:8>).

e) Select how conversion results are

presented in the buffer (AD1CON1<9:8>).

f) Select the interrupt rate (AD1CON2<5:2>).

g) Turn on the A/D module (AD1CON1<15>).

2. Configure the A/D interrupt (if required):

a) Clear the AD1IF bit.

b) Select the A/D interrupt priority.

Note:

A/D results should be read with the ADON

bit = 1. If the A/D is disabled before

reading the buffer, it is possible to lose

data.

ï£ 2005-2012 Microchip Technology Inc.

DS39747F-page 179

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